Under dry and cryogenic conditions, the drilling performance of carbon fibre reinforced plastic (CFRP) composites were evaluated. The thrust force, hole quality (cylindricity-CYL, circularity-CIR, and average surface roughness-Ra), and the reverse deformation coefficient are all examined in order to implement a green machining technology in the industry. For cryogenic machining of carbon fiber reinforced plastic materials, the evaluation of hole quality as it pertains to industry criteria has not been examined and discussed. The coordinate measurement machine uses a spherical probe to select locations on the desired plane(s) in terms to calculate CYL and CIR discrepancies. For measurements, a 1 mm pitch is used between two nearby spots. Surface roughness testers are used to determine arithmetic average Ra values, while vision measurement machines are used to determine inverse delamination factors. When related to dry drilling, cryogenic drilling significantly reduces the Ra values of holes through 14 to 38 percent and increases the entrance reverse deformation coefficient by 5 to 68 percent. According to these findings, cryogenic drilling is a viable option for the oil and gas business.